RU2730999C1 - Method for biochemical diagnosis of primary hyperparathyroidism - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to laboratory diagnostics, and can be used for biochemical diagnosis of primary hyperparathyroidism. Peripheral blood is analyzed for phosphorus and calcium. Level of ionized calcium and parathyroid hormone is determined. Primary hyperparathyroidism K_PHPT is calculated by formula: K_PHPT=(Ca²⁺×P)/PTH×100, where Ca²⁺ is the level of ionized calcium in blood plasma, mmol/l; P is phosphorus level in blood plasma, mmol/l; PTH – level of parathyroid hormone in blood plasma, pg/ml. If K_PHPT is less than or equal to 1.95, primary hyperparathyroidism is confirmed. If K_PHPT is more than 1.95, absence of disease is stated.

EFFECT: method provides the possibility of biochemical diagnosis of primary hyperparathyroidism by determining the level of ionized calcium, phosphorus, parathyroid hormone in peripheral blood and calculating the index of primary hyperparathyroidism.

1 cl, 2 ex

Description

The invention relates to medicine, namely to laboratory diagnostics and can be used in endocrinological departments, departments of endocrine surgery for the diagnosis of primary hyperparathyroidism in the presence of morphological changes in the parathyroid glands.

Currently, there is only one method that, to one degree or another, makes it possible to assess the degree of impairment of phosphorus-calcium metabolism and, accordingly, the function of the parathyroid glands in their pathology, which is largely due to insufficient emphasis on a comprehensive assessment of changes in the main laboratory parameters of phosphorus-calcium metabolism in the presence of organic pathology of the parathyroid glands. The only coefficient that recreates the degree of biochemical disorders in primary hyperparathyroidism is the phosphorus-calcium ratio, reflecting the change in these indicators, which are inversely related, while the reference norm indicators are in the range of 1.1-1.5 [1, 2]. In primary hyperparathyroidism, the level of calcium (Ca) in the blood increases, therefore, the concentration of phosphorus (P) decreases.

The disadvantages of this method are that, firstly, as one of the indicators of the phosphorus-calcium ratio, total calcium is used, rather than ionized calcium, which is a more accurate criterion for the violation of calcium metabolism. Secondly, another important indicator and regulator of the function of the parathyroid glands - parathyroid hormone (PTH) - is not affected. Thirdly, there is no simultaneous assessment of three main laboratory parameters assessing changes in phosphorus-calcium metabolism, which makes it difficult to comprehensively assess the function of the parathyroid glands and is one of the aspects of the present invention.

As you know, PTH plays a central role in the regulation of calcium homeostasis, along with calcitonin and vitamin D. Even a slight decrease in ionized calcium in the blood causes an instant increase in PTH secretion. Its action on bones, kidneys and intestines leads to an increase in the transport of calcium into the extracellular fluid and an increase in the concentration in the blood [1,3].

The aim of the invention is to develop a method for biochemical diagnosis of primary hyperparathyroidism.

This goal is achieved by determining the level of ionized calcium and parathyroid hormone and calculating the index of primary hyperparathyroidism Kpgpt according to the formula:

Ca ²⁺ - level of ionized calcium in blood plasma, mmol / l;

P is the level of phosphorus in blood plasma, mmol / l;

PTH - the level of parathyroid hormone in blood plasma, pg / ml;

with a value of Kpgpt ≤ 1.95, primary hyperparathyroidism is confirmed; with a value of Kpgpt> 1.95, the absence of the disease is judged.

These measurements were carried out in the examined practically healthy people without endocrine pathology and in the groups of patients with primary hyperparathyroidism before and after surgical treatment. Comparative characteristics of Kpgpt were carried out in patients with primary hyperparathyroidism and people without pathology of the parathyroid glands (healthy volunteers).

The changes in Kpgpt obtained before and after treatment made it possible, in a comparative aspect, to quantify changes in laboratory biochemical parameters, including, along with the determination of ionized calcium, phosphorus and parathyroid hormone in the peripheral blood, their ratio, with the determination of the indicator - Kpgpt, which is difficult when using other techniques.

To determine the reference indicator of the norm, healthy volunteers, aged 19 to 22, who did not suffer from parathyroid disease, were examined. As a result of the survey, it was revealed that the average values of K _pgpt were> 1.95. This value has become the determining criterion for the presence or absence of dysfunction of the parathyroid glands. An examination of the function of the parathyroid glands was carried out, with the determination of Kpgpt in 19 patients with a verified clinical diagnosis of "Primary hyperparathyroidism" and operated on for this disease. Before the operation, the proposed coefficient K _pgpt in this group was calculated, the average value of which was 1.15 ± 0.8 (from 0.35 to 1.95). At the same time, it is with a value of Kpgpt ≤ 1.95 that one can reliably judge the presence of primary hyperparathyroidism in the examined patients.

The method for biochemical diagnosis of primary hyperparathyroidism is based on the determination of ionized calcium, phosphorus, parathyroid hormone in the peripheral blood and the calculation of the primary hyperparathyroidism index Kpgpt according to the formula:

Ca ²⁺ - level of ionized calcium in blood plasma, mmol / l;

P is the level of phosphorus in blood plasma, mmol / l;

PTH - the level of parathyroid hormone in blood plasma, pg / ml;

with a value of Kpgpt ≤ 1.95, primary hyperparathyroidism is confirmed; with a value of Kpgpt> 1.95, the absence of the disease is judged.

The method is illustrated by clinical examples.

Example 1. Volunteer M., 20 years old. He does not show specific complaints characteristic of primary hyperparathyroidism; PTH - 27.6 pg / ml, Ca ²⁺ - 1.3 mmol / L, P - 1.17 mmol / L. According to ultrasound data, no pathology of the thyroid gland or thyroid gland was revealed. Based on the results of laboratory studies, the index of primary hyperparathyroidism was calculated using the proposed formula. Kpgpt = 5.51. Kpgpt> 1.95, which indicates the absence of primary hyperparathyroidism in the volunteer.

Example 2. Patient L., 34 years old. She underwent treatment at the NUZ DKB in Samara with a diagnosis of “Primary hyperparathyroidism, mixed form. Parathyroid adenoma ". The examination revealed an increase in the level of Ca ²⁺ up to 2.35 mmol / L, PTH up to 183.6 pg / ml, P up to 0.93 mmol / L. To _pgpt patient before surgery, calculated by the proposed method, was 1.19. Kpgpt <1.95, which confirms the diagnosis of primary hyperparathyroidism. After further examination, the operation was performed - removal of the PTG adenomas.

After the operation, the following biochemical values were obtained already on day 1: PTH - 25 pg / ml, Ca ²⁺ - 1.05 mmol / L, P - 1.3 mmol / L. The calculation of K _P gpt according to the proposed method, which was 5.46. Kpgpt> 1.95, which indicates the absence of the disease and the success of the operation. After 6 months, the patient was examined again: she had no complaints, noted a better quality of life, disappearance of pain in bones and joints; PTH - 25.3 pg / ml, Ca ²⁺ - 1.23 mmol / L, P - 1.05 mmol / L, Kpgpt was 5.1, which also corresponded to the reference values of the norm and indicated the absence of pathology. The patient underwent control ultrasound examination of the thyroid gland and parathyroid glands, on which no pathology of the thyroid gland was also revealed.

The proposed method for biochemical diagnosis of primary hyperparathyroidism can be used when conducting preventive examinations among the population. This method can serve as a way to quantitatively objectively assess the effectiveness of the treatment. Due to the availability, simplicity, non-invasiveness and information content, the coefficient of primary hyperparathyroidism can be widely used for these purposes, both in outpatient settings and in hospital settings.

SOURCES OF INFORMATION

1. Mokrysheva N.G., Eremkina A.K., Pigarova E.A. et al. Clinical guidelines. Primary hyperparathyroidism (PGPT): clinical picture, diagnosis, differential diagnosis, treatment methods. - Moscow. - 2017 .-- 75 p.

2. Mihai R., Farndon J.R. Parathyroid disease and calcium metabolism // Br J Anaesth. - 2000. - Vol. 85. - P. 29-43.

3. Tibblin S.A., Bondeson A.G., Ljunberg O. Unilateral parathyroidectomy in hyperparathyroidism due to single adenoma // Ann Surg. - 1982. - Vol. 195. - P. 245-252.

Claims (6)

A method for biochemical diagnosis of primary hyperparathyroidism, including the determination of phosphorus, calcium in the peripheral blood, characterized in that the level of ionized calcium and parathyroid hormone is determined and the indicator of primary hyperparathyroidism Kpgpt is calculated by the formula:

Ca ²⁺ - level of ionized calcium in blood plasma, mmol / l; P is the level of phosphorus in blood plasma, mmol / l; PTH - the level of parathyroid hormone in blood plasma, pg / ml; if the Kpgpt value is less than or equal to 1.95, primary hyperparathyroidism is confirmed; if the value of Kpgpt is more than 1.95, the absence of the disease is judged.